A scientist wanted to move a golf ball and a bowling ball to both reach 15 mph. What would the scientist have to do differently for the bowling ball than the golf ball to reach his goal?
To move the bowling ball to reach 15 mph, the scientist would need to apply more force compared to the golf ball due to its larger mass. Additionally, the scientist would have to consider the surface on which the bowling ball is placed as friction would have a greater impact on the bowling ball compared to the golf ball.
In order for both the golf ball and the bowling ball to reach a speed of 15 mph, the scientist would have to apply a greater force to the bowling ball compared to the golf ball. This is because the bowling ball has a larger mass than the golf ball, and according to Newton's second law of motion, a greater force is required to accelerate an object with a larger mass.
To make both the golf ball and the bowling ball reach 15 mph, the scientist would need to exert more force on the bowling ball compared to the golf ball. This is because the bowling ball has a greater mass than the golf ball, and according to Newton's second law of motion (F = ma), a greater force is required to accelerate an object with a greater mass.
